JP6886971B2 - Connector structure - Google Patents

Description

The present invention relates to a connector structure, and more particularly to a connector structure including a plug-side connector for a multi-pole connector and a device-side connector.

A multi-pole plug-side connector is provided as a connector structure for connecting a plug-side connector including a plurality of plug-side terminals provided in the plug-side housing to a device-side connector including a plurality of device-side terminals provided in the device-side housing. , A plurality of plug-side housings that can be connected and separated are known to be composed of a combination that is arranged in the horizontal direction (for example, Patent Documents 1 and 2).

Such a connectable / separable plug-side housing is provided with recesses and ridges on one surface and the other surface of which the plug-side housings adjacent to each other in the lateral direction face each other. By joining the concave groove and the ridge, the plug-side housings adjacent to each other do not separate (separate) from each other in the lateral direction. Such a combination of plug-side housings can be easily inserted into the device-side housing without the plug-side housing "disassembling" (for example, Patent Documents 1 and 2).

Japanese Unexamined Patent Publication No. 2005-322487 Japanese Unexamined Patent Publication No. 2014-78370

The work of connecting the plug-side housings requires experience, because the positions of the ends of the concave groove and the ridge must be completely aligned with each other when the plug-side housing connector is joined and fitted. It has a bad sex.

The problem to be solved by the present invention is to improve the work of connecting the plug-side housings by splicing and fitting so that the work can be performed with good workability without requiring experience.

The connector structure according to one embodiment of the present invention includes a device-side connector (50) including a plurality of device-side terminals (66) provided in a single device-side housing (52), and a separate plug-side housing (12). ) Is a connector structure for connecting a plurality of plug-side connectors (10) including the plug-side terminals (18), and the plurality of plug-side housings (12) are adjacent to each other in the lateral direction. One surface (12A) and the other surface (12B) of the plug-side housings (12), which are configured to be removably connected to the device-side housing (52) in an aligned state and are laterally adjacent to each other, face each other. ) Are provided with recessed grooves (24) and ridges (26) that are jointly fitted to each other, and the recessed groove (24) or the protrusion is provided on the one surface (12A) or the other surface (12B). The recessed groove (24) or the ridge (26) extends from at least one end side of the strip (26) in the same direction as the recessed groove (24) or the ridge (26), and the recessed groove (24) or the ridge (26) extends from the lateral direction. A alignment ridge (30) or an alignment recess (28) that can be engaged with is further provided.

According to this configuration, as a procedure for splicing and fitting the concave groove (24) and the ridge (26), first, the alignment concave groove (28) is engaged or positioned with the ridge (26) from the lateral direction. The alignment ridge (30) is engaged (entered) with the concave groove (24) from the lateral direction to perform rough alignment, and then plugged in the extending direction of the concave groove (24) and the ridge (26). The side connector (12) can be moved to join and fit the concave groove (24) and the ridge (26). As a result, the work of splicing and fitting can be easily performed.

In the connector structure, preferably, the concave groove (24) and the ridge (26) have a rollover trapezoidal cross-sectional shape and are jointly fitted to each other.

According to this configuration, the joint fitting is surely performed by the concave groove (24) and the ridge (26) having a cross-sectional shape of a rollover trapezoid.

In the connector structure, preferably, the alignment recessed groove (28) has a rectangular cross-sectional shape having a groove width larger than the maximum strip width of the ridge (26).

According to this configuration, due to the lateral engagement between the ridge (26) and the alignment concave groove (28), the concave groove (24) and the ridge (26) are rough at the time of joint fitting. Accurate positioning is performed.

In the connector structure, preferably, the alignment ridge (30) has a rectangular cross-sectional shape having a ridge width smaller than the minimum groove width of the concave groove (24).

According to this configuration, due to the lateral engagement between the concave groove (24) and the alignment ridge (30), the concave groove (24) and the ridge (26) are rough at the time of joint fitting. Accurate positioning is performed.

In the connector structure, preferably, the device-side housing (52) has a plurality of guide portions (56,) for individually guiding the insertion / removal of the plug-side connector (10) in a single unit of the plug-side housing (12). 58).

According to this configuration, the connection between the plug-side terminal (18) and the device-side terminal (66) is performed even if the device-side housing (52) does not have an internal partition wall, even if one plug-side housing (12) is connected. As a result, it can be performed with a smaller insertion force as compared with the case where a plurality of plug-side housings (12) in a multiple state are collectively inserted into the device-side housing (52).

In the connector structure, preferably, the plug-side housing engages with the locking portion (60) formed in the device-side housing (52) so as to engage with the plug-side housing (12). The engaging portion (32) that is non-pullably locked to the device-side housing (52) and the operating portion (40) that engages and disengages the engaging portion (32) with respect to the locking portion (60) are adjacent to each other. It has connecting portions (72, 74) for separably connecting the operating portions (40) of the plug-side housing (12).

According to this configuration, the operating portions (40) of the plurality of plug-side housings (12) are connected to each other by the connecting portions (72, 74), so that the engaging portions (32) of the plurality of plug-side housings (12) are connected to each other. ) And the locking portion (60) can be engaged to unlock the lock at once.

In the connector structure, preferably, the plug-side housing (12) has a through hole (20) penetrating the side surface in a direction orthogonal to the side surface, and further, a plurality of plug-side housings (12). Includes a connecting rod (23) that is continuously inserted into the through hole (20) and connects the plurality of plug-side connectors (12) in an aligned state.

According to this configuration, the connected state of the union of the plurality of plug-side connectors (12) aligned in the lateral direction is also maintained by the connecting rod (23).

In the connector structure, preferably, the plug-side terminal (18) is a female terminal (18) inserted into a terminal mounting hole (14) formed in the plug-side housing (12), and the female. The mold terminal (18) has an engaging portion (18C) that engages with the connecting rod (23) when inserted at a predetermined insertion position of the terminal mounting hole (14), and the connecting rod (23) has an engaging portion (18C). ) Also serves as a retainer for holding the female terminal (18) at the predetermined insertion position.

According to this configuration, it is possible to hold all of the female terminals (18) in the union of the plurality of plug-side connectors (12) arranged in the lateral direction at a predetermined insertion position by one connecting rod (23). Since it is performed, the number of parts can be reduced.

According to the connector structure according to the present invention, the work of connecting the plug-side housings by splicing and fitting requires experience due to the presence of at least one of the alignment ridges and the alignment recesses. It can be done with good workability.

Perspective view showing one embodiment of the connector structure according to the present invention. Enlarged perspective view of the main part of the connector structure according to this embodiment Enlarged perspective view of the plug-side connector of the connector structure according to this embodiment. A graph showing the key layout of an aggregate of plug-side connectors in the connector structure according to the present embodiment. A perspective view showing a procedure for attaching terminals and retainers of a plug-side connector of a connector structure according to the present embodiment. Vertical cross-sectional view of the plug-side connector of the connector structure according to this embodiment. A perspective view showing the attachment of a retainer in a multi-plug side connector having a connector structure according to the present embodiment. Cross-sectional perspective view of the main part of the device-side connector of the connector structure according to the present embodiment. Perspective view showing another embodiment of the connector structure according to the present invention. Enlarged perspective view of the plug-side connector of the connector structure according to another embodiment. Perspective view showing another embodiment of the connector structure according to the present invention.

Hereinafter, one embodiment of the plug-side connector combination, the device-side connector, and the connector pair (connector structure) according to the present invention will be described with reference to FIGS. 1 to 8. In each figure, the front-back, left-right, and up-down directions are defined by arrows. As shown in FIG. 1, the front-rear direction is defined in the opposite direction between the plug-side connector and the device-side connector.

As shown in FIGS. 1 and 2, the connector pair (connector structure) is a combination of a plurality of plug-side connectors 10 that can be connected / separated from each other and one that connects a plurality of plug-side connectors 10. It is composed of a device-side connector 50.

As shown in FIGS. 1 to 3, each plug-side connector 10 includes a separate plug-side housing 12 made of a resin molded product. The plug-side housing 12 has a substantially rectangular parallelepiped shape having a left side surface 12A and a right side surface 12B parallel to each other. The left side surface 12A of one plug side housing 12 and the right side surface 12B of another plug side connector 10 adjacent to the left side by a combination of a plurality of plug side connectors 10 arranged in a left-right direction (horizontal direction). opposite. The right side surface 12B of one plug-side housing 12 faces the left side surface 12A of another plug-side connector 10 adjacent to the right side by a combination of a plurality of plug-side connectors 10 arranged in a horizontally aligned state.

In the combination of the plurality of plug-side connectors 10, the left side surface 12A of the plug-side housing 12 arranged on the leftmost side faces the inner surface of the left end wall 52C of the device-side connector 50 described later, and is arranged on the rightmost side. The right side surface 12B of the plug-side housing 12 faces the inner surface of the right end wall 52D of the device-side connector 50.

The plug-side housing 12 has terminal mounting holes 14 extending in the front-rear direction in two upper and lower stages. As shown in FIGS. 5 and 6, a metal female terminal (plug terminal) 18 to which an insulating coated electric wire (cord) 16 is electrically connected is inserted into each terminal mounting hole 14. The female terminal 18 has a tubular receptacle portion 18A into which a protruding portion 66A of the male terminal 66, which will be described later, is inserted, and a check-shaped locking projection (lance) 18B, and the locking projection 18B is a plug-side housing. By engaging with the locking portion 14A formed in 12, the plug-side housing 12 is locked by a check valve. Here, the state in which the female terminal 18 is inserted into the terminal mounting hole 14 to the position where the locking projection 18B engages with the locking portion 14A is brought into the regular insertion position of the terminal mounting hole 14. It is called the inserted state.

Each plug-side housing 12 has a through hole 20 as shown in FIGS. 1, 3, 5, and 6. The through hole 20 penetrates the left side surface 12A and the right side surface 12B in an orthogonal direction (left-right direction) and extends across a part of both the upper and lower terminal mounting holes 14 in the left-right direction, and the left side surface 12A and the right side surface 12A and the right side surface. It is open to 12B. In other words, the through hole 20 is located at a position in the vertical direction corresponding to the space between the upper and lower terminal mounting holes 14, and both the lower portion of the upper terminal mounting hole 14 and the upper portion of the lower terminal mounting hole 14 are formed. It extends across the left and right directions.

As shown in FIG. 5, the plug-side connector 10 includes a retainer 22 which is a separate component from the plug-side housing 12. The retainer 22 is a resin molded product and has a rod-shaped insertion portion 22A that is removably inserted into the through hole 20 and a attachment / detachment operation grip portion 22B that is connected to one end of the insertion portion 22A and polymerizes on the left side surface 12A. It has an L shape. The insertion of the insertion portion 22A into the through hole 20 is performed after the insertion of the female terminal 18 into the terminal mounting hole 14 is completed, as shown in FIGS. 5A to 5C.

As shown in FIG. 6, the insertion portion 22A is inside the terminal mounting hole 14 only when the female terminal 18 is inserted into the terminal mounting hole 14 up to the regular insertion position (predetermined insertion position). The entire terminal 18 can be inserted into the through hole 20 without colliding with the female terminal 18. By inserting the entire insertion portion 22A into the through hole 20, the attachment / detachment operation grip portion 22B is joined to the left side surface 12A.

As a result, when the female terminal 18 is not inserted into the terminal mounting hole 14 up to the regular insertion position, the attachment / detachment operation grip portion 22B does not come into contact with the left side surface 12A and is located away from the left side surface 12A. Since it is located, the operator can visually confirm whether or not the female terminal 18 has been inserted into the terminal mounting hole 14 up to the regular insertion position by the degree of insertion of the retainer 22 into the through hole 20. .. By this visual work, it is possible to easily avoid the insertion failure of the female terminal 18.

Under the state where the female terminal 18 is inserted to the regular insertion position of the terminal mounting hole 14, the insertion portion 22A inserted into the through hole 20 is held up and down with the front surface 22C as shown in FIG. It abuts on each of the stepped surfaces (engagement portions) 18C of the female terminal 18. This contact also prevents the female terminal 18 from being pulled out from the plug-side housing 12.

As shown in FIGS. 1 to 3, each plug-side housing 12 has recessed grooves (key grooves) 24 extending in parallel to each other in the front-rear direction at two locations above and below the left side surface 12A. Further, the ridges (fitting keys) 26 are integrally provided on the upper and lower sides of the right side surface 12B so as to extend in parallel with each other in the front-rear direction.

The plug-side housings 12 adjacent to each other on the left and right are left and right by the concave groove 24 on the left side surface 12A and the ridge 26 on the right side surface 12B, which are adjacent to each other and face each other, are engaged (fitted) in a sliding key manner. They are connected in a state of being aligned in the direction. The concave groove 24 is a rollover table-shaped “with joint groove” having a short side on the groove opening side, and the ridge 26 is a “with joint” having a horizontal cross-sectional shape with a protruding tip having a long side. The groove 24 and the ridge 26 are "jointly fitted" with each other.

In other words, the cross-sectional shape of the concave groove 24 and the ridge 26 cannot be separated in the direction (left-right direction) through the left side surface 12A and the right side surface 12B at right angles by the vertically inclined surfaces of the concave groove 24 and the ridge 26. It has a cross-sectional shape including an overhang portion to be connected.

The engagement between the recessed groove 24 and the ridge 26 to be jointly fitted is such that the two plug-side housings 12 adjacent to each other are aligned vertically and the two plug-side housings 12 are relatively displaced in the front-rear direction. By (sliding movement), it is performed in a sliding manner, and the plug-side housings 12 adjacent to the left and right are connected in the lateral direction so as not to be separated by the joint fitting.

According to this structure, the plug-side connector 10 in a multiple state in which the plug-side housings 12 adjacent to the left and right are connected in the lateral direction so as not to be separated can be obtained in a state where the plug-side connector 10 is not connected to the device-side connector 50. A plurality of connected plug-side connectors 10 can be collectively connected to the device-side connector 50.

In this batch connection, the work of connecting a plurality of plug-side connectors 10 to the device-side connector 50 can be performed more quickly than when the individual plug-side connectors 10 are connected to the device-side connector 50 one by one. Will be.

The plug-side connectors 10 in the multiple-connected state, that is, the through holes 20 of the plug-side housings 12 of the union formed by the plurality of plug-side connectors 10, communicate with each other in a straight line in the left-right direction. In this case, as shown in FIG. 7, the attachment / detachment operation having the same length as the insertion portion 23A and the attachment / detachment operation grip portion 22B having a length corresponding to the total dimensions in the left-right direction of the plurality of plug-side housings 12. An L-shaped connecting rod 23 having a grip portion 23B may be used.

In the use of the connecting rod 23, the insertion portion 23A is continuously inserted into the through holes 20 of the plurality of plug-side housings 12, so that the connecting strength of the plurality of plug-side housings 12 is improved. The connecting rod 23 has a plurality of plug-side connectors by engaging the insertion portion 23A with the female terminal 18 at the regular insertion position (predetermined insertion position) in the same manner as the insertion portion 22A of the retainer 22 described above. It also serves as a retainer 22 that collectively holds the female terminals 18 of 10 at the regular insertion positions.

As a result, it is sufficient to prepare one connecting rod (retainer) 23 for each combination of the plurality of plug-side connectors 10, and it is not necessary to prepare an individual retainer 22 for each plug-side connector 10, reducing the number of parts. can do.

As shown in FIGS. 1 to 3, the concave groove 24 and the ridge 26 do not exist over the entire length of the left side surface 12A and the right side surface 12B in the front-rear direction, and the left side surface 12A and the right side surface 12B do not exist. Only on the front side is provided with a length smaller than the total length (about 1/2 to 2/3 of the total length) in the front-rear direction.

As shown in FIG. 2, the left side surface 12A is formed with a positioning concave groove 28 extending in a straight line from the rear end of each concave groove 24 to the rear. The alignment concave groove 28 has a front-rear length of about 1/2 to 1/3 of the total length in the front-rear direction of the left side surface 12A, and corresponds to a groove width larger than the maximum groove width in the vertical direction of the concave groove 24. It is a concave groove having a rectangular cross section having a groove width in the vertical direction larger than the maximum width of the ridge 26 and engaging with the ridge 26 from the lateral direction (horizontal direction).

On the right side surface 12B, as shown in FIGS. 1 and 3, a positioning ridge 30 extending continuously in a straight line from the rear end of each ridge 26 to the rear is integrally formed. .. The alignment ridge 30 has a rectangular cross section having a width smaller than the minimum vertical width of the ridge 26 and a vertical width smaller than the minimum width of the corresponding concave groove 24, and has a lateral (horizontal direction). ) Is a ridge that can be engaged with the concave groove 24.

When connecting two plug-side housings 12 adjacent to each other before inserting the plug-side connector 10 into the device-side connector 50 in a state where the device-side housing 52 is not inserted into the connector insertion chamber 54, which will be described later. , The positions of the two plug-side housings 12 adjacent to each other in the front-rear direction are shifted by about 1/2 to 1/3 of the total length in the front-rear direction of the plug-side housing 12, and the two plug-side housings 12 adjacent to each other are shifted. Are aligned from the left-right direction (the lateral direction in which the left side surface 12A and the right side surface 12B facing each other approach each other) to engage the alignment recess 28 and the ridge 26, and the alignment recess 28 is vertically oriented. Rough alignment in the vertical direction is performed within the range of the groove width of. After that, the two plug-side housings 12 adjacent to each other are displaced relative to each other in the front-rear direction, so that the concave groove 24 and the ridge 26 are loosely fitted from the alignment concave groove 28 and the ridge 26. It naturally changes to a close "joint fitting" with. As a result, the workability of the joint fitting between the concave groove 24 and the ridge 26 is improved, and the workability of connecting the plurality of plug-side housings 12 that are not inserted into the connector insertion chamber 54 is improved. ..

Similarly, the positions of the two plug-side housings 12 adjacent to each other in the front-rear direction are shifted by about 1/2 to 1/3 of the total length in the front-rear direction of the plug-side housing 12, and the two plug-side housings adjacent to each other are side-to-back. The housing 12 is aligned from the left-right direction (the lateral direction in which the left side surface 12A and the right side surface 12B facing each other approach each other), and the alignment ridge 30 and the concave groove 24 are engaged with each other to engage the concave groove 24 in the vertical direction. Rough vertical alignment is performed within the groove width. After that, the two plug-side housings 12 adjacent to each other are relatively displaced in the front-rear direction, so that the recessed groove 24 and the recessed groove 26 are loosely fitted from the alignment protrusion 30 and the recessed groove 24. It naturally changes to a close "joint fitting" with. As a result, the workability of the joint fitting between the concave groove 24 and the ridge 26 is improved, and the workability of connecting the plurality of plug-side housings 12 that are not inserted into the connector insertion chamber 54 is improved. ..

In two plug-side housings 12 adjacent to each other, there are a plurality of pairs of recessed grooves 24 and ridges 26 that are engaged with each other, and in pairs, the slidable direction (sliding direction) on the left side surface 12A and the right side surface 12B. The position in the direction orthogonal to the front-back direction, that is, the position in the up-down direction is different in pairs. As shown in FIG. 4, the positions of the pair of the concave groove 24 and the ridge 26 are set to six different vertical positions A to F, and the two-stage upper and lower concave groove 24 and the ridge 26 There are nine types of plug-side housings of types I to IX depending on the combination of pairs, and only the plug-side housings 12 in which both the upper and lower two-stage pairs are at the same position can be connected to each other.

That is, only when two specific plug-side connectors 10 are adjacent to each other, the groove 24 of one plug-side housing 12 is slidably engaged with the ridge 26 of the other plug-side housing 12, or one plug. The slidable engagement of the ridge 26 of the side housing 12 with the concave groove 24 of the other plug side housing 12 is determined by the coincidence / mismatch of the vertical installation positions of the concave groove 24 and the ridge 26. In FIG. 4, the ◯ mark indicates the vertical position of the concave groove 24, and the ● mark indicates the vertical position of the ridge 26.

For example, the type I plug-side housing 12 and the type II plug-side housing 12 have a paired position (hereinafter referred to as “opposite position”) between the upper recessed groove 24 and the ridge 26, and the lower paired position. Are matched by "F", so that they can be connected as two specific plug-side connectors 10. However, the type III plug-side housing 12 is specified because the upper pairing position is "B" and the lower pairing position is "E", which does not match the pairing position of the type I plug-side housing 12. The type I plug side housing 12 and the type III plug side housing 12 cannot be connected to each other, assuming that the two plug side connectors 10 are not provided, and misalignment is avoided under the foolproof.

In this embodiment, the plug-side connector 10 is connected in 9 stations only when the plug-side housing 12 is arranged in the order of type I, type II, type III ... type VIII, type IX. In any order other than the above, for example, the plug-side housing 12 cannot be connected in the order of type I, type III, type II, etc., and the plug-side connectors 10 are connected in multiple rows by an incorrect arrangement. Is avoided before it happens.

As shown in FIGS. 1 to 3 and 6, the plug-side housing 12 is separated upward from the plug-side housing 12 by the gap 34, and only the front and rear ends are plugged by the connecting portion 36, respectively. It has a resin elastic deformed plate portion 38 having a double-sided beam structure integrally connected to the front and rear ends of the side housing 12. An engaging protrusion 32 that engages with the locking opening 60, which will be described later, is integrally formed on the upper portion of the middle portion of the elastically deformed plate portion 38 in the front-rear direction. The engaging protrusion 32 is displaced in the vertical direction under the downward convex arcuate elastic deformation between the front and rear of the elastic deformation plate portion 38.

An unlock operation portion 40 is formed so as to protrude from the upper part on the rear side of the elastic deformation plate portion 38. The unlocking operation unit 40 elastically deforms the elastically deformed plate portion 38 into a downward convex arc shape by being pressed downward by a fingertip operation, and engages the engaging protrusion 32 with the locking opening 60. It forms an operation unit that separates.

The entire plug-side housing 12, including the elastically deformed plate portion 38, the engaging protrusion 32, and the unlock operation portion 40, is colored in different colors depending on the types of types I to IX. Coloring can be performed by adding a pigment of a specified color to the resin material at the time of molding the plug-side housing 12.

The operator can easily identify the type of the plug-side connector 10 by the color of the plug-side housing 12. The color of the plug-side housing 12 is most preferably set to a separate color for each of types I to IX, but in order to reduce the number of colors, the colors between the separated arrangements are the same, for example, type I. And VI may be set to white, types II and VII may be set to purple, types III and VIII may be set to red, types IV and IX may be set to green, and type V may be set to blue.

The device-side connector 50 includes a device-side housing 52 made of a resin molded product, as shown in FIGS. 1, 2 and 8. The device-side housing 52 has a rectangular parallelepiped shape with the upper wall 52A, the lower wall 52B, the left end wall 52C, the right end wall 52D, and the bottom wall 52E open on the front side, and the bottom wall 52E is fixed to a circuit board (not shown) or the like. To.

The device-side housing 52 is internally partitioned by opening the front side so that a plurality of plug-side connectors 10 can be inserted and removed in the front-rear direction by the upper wall 52A, the lower wall 52B, the left end wall 52C, the right end wall 52D, and the bottom wall 52E. It defines one rectangular parallelepiped connector insertion chamber 54 without a bulkhead). The connector insertion chamber 54 has a structure in which all of the plurality of plug-side connectors 10 constituting the assembly are inserted, but the internal partition wall that divides the accommodating portions of the plurality of plug-side connectors 10 into each plug-side connector 10 is removed. It forms one accommodation space.

As a result, when the same number of plug-side connectors 10 are inserted, the left-right dimension of the device-side connector 50 becomes smaller, and the device-side connector 50 can be miniaturized.

The device-side housing 52 integrally has an upper guide rail 56 extending in the front-rear direction at a position corresponding to each plug-side housing 12 when viewed in the left-right direction on the connector insertion chamber 54 side of the upper wall 52A. The upper guide rail 56 engages with the elastically deformed plate portion 38 and the upper portion of the plug-side housing 12 so as to be slidable in the front-rear direction while restraining the movement in the left-right and up-down directions. The device-side housing 52 integrally has a lower guide rail 58 on the connector insertion chamber 54 side of the lower wall 52B, which extends in the front-rear direction at a position corresponding to each plug-side housing 12 when viewed in the left-right direction. The lower guide rail 58 is slidably engaged with the lower portion of the plug-side housing 12 in the front-rear direction while restraining the movement in the left-right and up-down directions.

As a result, the upper guide rail 56 and the lower guide rail 58 individually insert and remove the plug-side housing 12 from the device-side housing 52 in the front-rear direction for each plug-side connector 10, that is, for each plug-side housing 12. It guides and allows the plug-side housing 12 to be inserted into the device-side housing 52 one by one. As a result, the female terminal 18 and the male terminal 66 described later on the device side connector 50 side can be connected by one plug side housing 12 units even if the device side housing 52 does not have an internal partition wall. This can be performed with a smaller insertion force as compared with the case where a plurality of multiple plug-side housings 12 are collectively inserted into the device-side housing 52.

Moreover, since the upper guide rail 56 and the lower guide rail 58 individually hold the plug-side housings 12 at predetermined positions in the left-right direction, a plurality of plugs that are aligned in the left-right direction even if the device-side housing 52 does not have an internal partition wall. The side connector 10 can be inserted into the device side connector 50 and placed at a predetermined position in a toothless state in which the plug side connector 10 arranged in the middle is skipped.

The device-side housing 52 further integrally includes a plurality of insertion guide portions 59 protruding from the bottom wall 52E in the same direction as the insertion direction of the plug-side housing 12. The insertion guide portion 59 is formed for each plug-side housing 12, is inserted into the engaging portion 15 (see FIG. 6) of the corresponding plug-side housing 12, and together with the upper guide rail 56 and the lower guide rail 58, the device-side housing 52. The plug-side housing 12 is guided in the front-rear direction and positioned in the left-right and up-down directions.

The left end wall 52C is formed with a ridge 62 (see FIG. 2) in which the concave groove 24 of the plug-side housing 12 arranged at the left end is slidably engaged in the front-rear direction. The right end wall 52D is formed with a concave groove 64 (see FIG. 1) in which the ridge 26 of the plug-side housing 12 arranged at the right end is slidably engaged in the front-rear direction. The ridge 62 and the concave groove 64 have a cross-sectional shape of a rollover table shape that is the same as the cross-sectional shape of the ridge 26 and the concave groove 24.

The device-side housing 52 has a locking opening 60 into which the engaging protrusion 32 can be engaged and disengaged into the upper wall 52A. The plug-side housing 12 inserted into the connector insertion chamber 54 is locked by the engaging protrusion 32 being fitted into the locking opening 60.

As shown in FIG. 8, the device-side connector 50 is a metal male terminal (device-side terminal) at a position corresponding to each of the female terminals 18 of each plug-side housing 12 inserted into the connector insertion chamber 54. ) 66. The number of male terminals 66 is the same as the total number of female terminals 18 of each plug-side housing 12 inserted into the connector insertion chamber 54, and each extends from the bottom wall 52E in the same direction as the insertion direction of the plug-side housing 12. It has a protruding portion 66A protruding into the connector insertion chamber 54. The protruding portion 66A fits into the receptacle portion 18A of the female terminal 18. By this fitting, the female terminal 18 and the male terminal 66 are electrically connected.

Here, the male terminal 66 with a reference numeral (GND) in FIG. 8 is a ground terminal. The protruding length of the protruding portion 66A of the ground terminal 66 (GND) is longer than the protruding length of the protruding portion 66A of the other male terminal 66. As a result, the conductive connection between the female terminal 18 and the male terminal 66 is first made at the ground terminal 66 (GND), and the safety of the device side at the time of connecting the connector is achieved by ground static elimination.

As shown in FIGS. 1 and 2, on the front side of the upper wall 52A (the opening side of the connector insertion chamber 54) and the upper part of the opening edge of the connector insertion chamber 54, the locking openings 60 are opened in the left-right direction. Square colored portions 68 and 70 are provided at corresponding positions. The colored portions 68 and 70 are individually set for each of the locking openings 60, that is, the plug-side connectors 10 to be inserted into the connector insertion chamber 54, and should be inserted into the positions where the plug-side housings 12 are inserted. A figure (square) having the same color as that of the plug-side connector 10 is printed by an inkjet printer or the like. For example, a red figure is printed on the colored portions 68 and 70 located at positions corresponding to the left-right direction in which the red plug-side housing 12 is inserted.

The plug-side connector 10 is connected to the device-side connector 50 by fitting the upper and lower portions of the plug-side housing 12 for each plug-side connector 10 or the concave groove 24 of the adjacent plug-side connector 10 and the ridge 26. The upper and lower portions of the plug-side housing 12 of the plug-side connector 10 in the state are engaged with the upper guide rail 56 and the lower guide rail 58 at the corresponding left-right positions, and the plug-side connector is shielded by these guide rails 56 and 58. This is done by sliding 10 into the connector insertion chamber 54. In this insertion, the engaging protrusion 32 is automatically fitted into the locking opening 60 so as to dive under the front edge portion of the upper wall 52A under the downward elastic deformation of the elastic deformation plate portion 38. And it will be stuck.

In this connection work, the colors of the colored portions 68 and 70 and the color of the plug-side housing 12 are matched to prevent erroneous assembly by the key layout and erroneous connection of the plug-side connector 10 to the device-side connector 50. Can be prevented.

To remove the plug-side connector 10, the unlocking operation portion 40 is pressed by the operator's finger, and the engaging protrusion 32 is lowered under the elastic deformation of the elastic deformation plate portion 38 downward, and is engaged. The plug-side connector 12 is pulled out toward the front in a unlocked state in which the joint protrusion 32 is released from the fitting with the locking opening 60, so that the plug-side connector is 10 units (12 units of the plug-side housing). When it is desired to remove a plurality of adjacent plug-side connectors 10 at once, the unlocking operation unit 40 of the plurality of plug-side housings 12 to be removed may be pressed at once.

Next, another embodiment of the plug-side connector combination, the device-side connector, and the connector pair according to the present invention will be described with reference to FIGS. 9 and 10. In FIGS. 9 and 10, the parts corresponding to FIGS. 1 to 8 are designated by the same reference numerals as those given in FIGS. 1 to 8 and the description thereof will be omitted.

In this embodiment, the concave portion 72 is formed at the right end portion of the unlock operation portion 40, and the convex portion 74 is formed at the left end portion of the unlock operation portion 40. The concave portion 72 is a concave portion having a C-shaped cross section of the rear opening, and the convex portion 74 is a cylindrical convex portion, so that the adjacent plug-side housings 12 move relative to each other in the front-rear direction or the plugs that have already been inserted into the device-side housing 52. By inserting another plug-side housing 12 next to the side housing 12, the concave portion 72 and the convex portion 74 of the adjacent unlock operation portions 40 are fitted, and the unlock operation portion 40 of the adjacent plug-side housing 12 is fitted. Connected to each other.

In this embodiment, since the unlocking operation portions 40 of the adjacent plug-side housings 12 are connected to each other, the unlocking operation portion 40 of one plug-side housing 12 is only pressed and engaged with the engaging protrusion 32. The lock of the plug-side housing 12 by fitting with the stop opening 60 is released collectively in a plurality of adjacent plug-side housings 12. As a result, operability is improved when a plurality of adjacent plug-side housings 12 are removed together.

The present invention has been described above with respect to preferred embodiments thereof, but as can be easily understood by those skilled in the art, the present invention is not limited to such embodiments and deviates from the gist of the present invention. It can be changed as appropriate as long as it does not.

For example, as shown in FIG. 11, the plug-side connector 10 includes a 4-pole connector obtained by integrally molding two plug-side housings 12 for two poles of the above-described embodiment, or a plug-side housing 12 having three. It may be a 6-pole one integrally molded, a 10-pole one in which five plug-side housings 12 are connected, or the like, and is not limited to the two-pole one.

A plurality of two-pole plug-side housings 12 integrally molded have a structure in which the rear portions of adjacent plug-side housings 12 are integrally molded with each other, and the upper guide rail 56 and the upper guide rail 56 and the same as the single plug-side housing 12 are formed. It is guided by the lower guide rail 58 and inserted into the connector insertion chamber 54. When the number of connected plug-side housings 12 for two poles is three or more, the engaging protrusions 32 are provided only on the plug-side housings 12 located at both ends, and the unlocking operation portion 40 has a plurality of plug-side housings 12 It suffices if they are connected and provided in one.

The type of the plug-side housing 12 determined by the vertical positions of the groove 24 and the ridge 26 is not limited to nine, and may be less than nine or more than nine. Also, only when two specific plug-side connectors 10 are adjacent to each other, the groove 24 of one plug-side housing 12 is slidably engaged with the ridge 26 of the other plug-side housing 12, or one plug. The structure in which the ridge 26 of the side housing 12 is slidably engaged with the concave groove 24 of the other plug side housing 12 so that the adjacent plug side housings 12 are connected to each other is the concave groove 24 and the structure. The position of the ridge 26 in the vertical direction is not limited to the match / mismatch, and may be due to the match / mismatch of the shapes or sizes of the concave groove 24 and the ridge 26. The plug-side connector 10 may have a male terminal, and the device-side connector may have a female terminal.

The protrusion 62 formed on the left end wall 52C of the device-side housing 52 is omitted, and the concave groove 64 formed on the right end wall 52D is located at any of the A to C positions and / and the D to F positions. The strip 26 may be replaced with a wide recess that can be engaged. In this case, the device-side housing 52 can be shared.

The concave groove 24 and the ridge 26 to be jointly fitted are not limited to those having a cross-sectional shape of a rollover trapezoid, and the cross-sectional shape may be a hook shape or the like.

In addition, not all of the components shown in the above embodiments are indispensable, and they can be appropriately selected as long as they do not deviate from the gist of the present invention.

10 Plug-side connector 12 Plug-side housing 12A Left side 12B Right side 14 Terminal mounting hole 14A Locking part 15 Engagement part 16 Insulated coated wire 18 Female terminal (plug side terminal)
18A Receptacle part 18B Locking protrusion 18C Step surface 20 Through hole 22 Retainer 22A Insertion part 22B Detachment operation grip part 22C Front surface 23 Connector rod 23A Insert part 23B Detachment operation grip part 24 Concave groove 26 Protrusion 28 Alignment recess 30 Position Alignment ridge 32 Engagement ridge 34 Void 36 Connecting part 38 Elastic deformation plate part 40 Unlocking operation part 50 Equipment side connector 52 Equipment side housing 52A Upper wall 52B Lower wall 52C Left end wall 52D Right end wall 52E Bottom wall 54 Connector insertion Room 56 Upper guide rail (guide part)
58 Lower guide rail (guide part)
59 Insertion guide part 60 Locking opening 62 Protrusion 62A Protruding part 64 Concave groove 66 Male terminal (device side terminal)
66A Protruding part 68 Colored part 70 Colored part 72 Concave part 74 Convex part

Claims (9)

It is a connector structure for connecting a plurality of plug-side connectors including plug-side terminals provided in individual plug-side housings to a device-side connector including a plurality of device-side terminals provided in a single device-side housing. hand,
Before Kipu lug-side housing is configured to connect or disconnect connected to the apparatus-side housing in a state aligned laterally adjacent each other,
Recessed grooves and ridges are provided on one surface and the other surface of the plug-side housings that are laterally adjacent to each other so as to face each other.
The concave groove or the ridge extends in the same direction as the concave groove or the ridge from at least one end side of the concave groove or the ridge on the one surface or the other surface, and the concave groove or the ridge extends from the lateral direction. The ridges are further provided with reduced ridges or alignment recesses that can be loosely fitted .
The alignment recess has a connector structure having a rectangular cross-sectional shape having a groove width larger than the maximum width of the ridge. It is a connector structure for connecting a plurality of plug-side connectors including plug-side terminals provided in individual plug-side housings to a device-side connector including a plurality of device-side terminals provided in a single device-side housing. hand,
Before Kipu lug-side housing is configured to connect or disconnect connected to the apparatus-side housing in a state aligned laterally adjacent each other,
Recessed grooves and ridges are provided on one surface and the other surface of the plug-side housings that are laterally adjacent to each other so as to face each other.
The concave groove or the ridge extends in the same direction as the concave groove or the ridge from at least one end side of the concave groove or the ridge on the one surface or the other surface, and the concave groove or the ridge extends from the lateral direction. The ridges are further provided with reduced ridges or alignment recesses that can be loosely fitted .
The reduced ridge is a connector structure having a rectangular cross-sectional shape having a ridge width smaller than the minimum groove width of the concave groove. It is a connector structure for connecting a plurality of plug-side connectors including plug-side terminals provided in individual plug-side housings to a device-side connector including a plurality of device-side terminals provided in a single device-side housing. hand,
Before Kipu lug-side housing is configured to connect or disconnect connected to the apparatus-side housing in a state aligned laterally adjacent each other,
Recessed grooves and ridges are provided on one surface and the other surface of the plug-side housings that are laterally adjacent to each other so as to face each other.
The concave groove or the ridge extends in the same direction as the concave groove or the ridge from at least one end side of the concave groove or the ridge on the one surface or the other surface, and the concave groove or the ridge extends from the lateral direction. The ridges are further provided with reduced ridges or alignment recesses that can be loosely fitted .
The plug-side housing has a through hole that penetrates the side surface of the plug-side housing in an orthogonal direction.
Further, it includes a connecting rod that is continuously inserted into the through holes of the plurality of plug-side housings and connects the plurality of plug-side connectors in an aligned state.
The plug-side terminal is a female terminal inserted into a terminal mounting hole formed in the plug-side housing, and the female terminal is connected in a state of being inserted at a predetermined insertion position of the terminal mounting hole. A connector structure having an engaging portion that engages with a rod, and the connecting rod also serves as a retainer that holds the female terminal at the predetermined insertion position. The connector structure according to claim 2 or 3, wherein the alignment recess has a rectangular cross-sectional shape having a groove width larger than the maximum width of the ridge. The connector structure according to claim 1 or 3, wherein the reduced ridge has a rectangular cross-sectional shape having a ridge width smaller than the minimum groove width of the concave groove. The connector structure according to any one of claims 1 to 5, wherein the concave groove and the ridge have an inverted trapezoidal cross-sectional shape and are jointly fitted to each other. The connector structure according to any one of claims 1 to 6, wherein the device-side housing has a plurality of guide portions for individually guiding the insertion / removal of the plug-side connector in a single unit of the plug-side housing. The plug-side housing engages with a locking portion formed on the device-side housing so as to be engageable and disengageable, and engages the plug-side housing with the device-side housing so as not to be pulled out. The connector according to any one of claims 1 to 7, further comprising an operating portion for engaging and disengaging the locking portion and a connecting portion for separably connecting the operating portions of the adjacent plug-side connectors. Construction. The plug-side housing has a through hole that penetrates the side surface of the plug-side housing in an orthogonal direction.
The connector structure according to claim 1 or 2 , further comprising a connecting rod that is continuously inserted into the through holes of the plurality of plug-side housings and connects the plurality of plug-side connectors in an aligned state.

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